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Lab Ball Mill Supplier Nano Powder Grinding Crusher Machine 40L Full-Directional Multiple Dimensional Rotations
Dettagli:
| Luogo di origine: | Hunan, Cina |
| Marca: | TENCAN |
| Certificazione: | CE ISO |
| Numero di modello: | QXQM-40 |
Termini di pagamento e spedizione:
| Quantità di ordine minimo: | 1 set |
|---|---|
| Prezzo: | Negoziabile |
| Imballaggi particolari: | Casto di cartone o compensato |
| Tempi di consegna: | 10-15 giorni lavorativi dopo aver ottenuto il pagamento completo |
| Termini di pagamento: | T/T, Unione Occidentale |
| Capacità di alimentazione: | 150 set al mese |
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Informazioni dettagliate |
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| Nome del prodotto: | Mulino a sfera planetario a doppio pianetario di laboratorio | Modello n.: | QXQM-40 |
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| Volume totale: | 40l | Capacità massima: | 6.66l |
| Ruotare la velocità: | 40-390 giri/min. | Voltaggio: | 380V-50Hz |
| Energia: | 5,5 kW | Controllo della velocità: | Convertitore di frequenza |
| Tipo: | Mulino a sfera | ||
| Evidenziare: | 40L lab ball mill machine,nano powder grinding crusher,full-directional rotation ball mill |
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Descrizione di prodotto
Lab Ball Mill Supplier Nano Powder Grinding Crusher Machine 40L Full-Directional Multiple Dimensional Rotations
Overview
The Omni-directional Laboratory Ball Mill represents a fundamental advancement in material processing technology, delivering exceptional performance in precision milling, ultrafine grinding, powder homogenization, nanomaterial synthesis, product development, and small-batch manufacturing. Tencan's planetary ball mill system combines sophisticated engineering with practical functionality—featuring a space-saving architecture, optimized energy efficiency, whisper-quiet operation, and remarkable processing versatility. This configuration presents an ideal solution for research centers, academic institutions, and industrial laboratories requiring consistent, high-quality powder specimens. The innovative four-station design enables parallel processing of multiple samples, significantly enhancing experimental throughput. Furthermore, when configured with specialized vacuum milling containers, the system facilitates advanced material preparation under controlled atmospheric conditions.
Operational Mechanism
Engineered with four grinding stations symmetrically arranged on a central rotating platform, the omni-directional ball mill generates complex kinematic patterns through simultaneous planetary motion. During operation, each grinding jar maintains independent rotation while completing full orbital revolutions, creating dynamic interactions between grinding media and processed materials. This multi-axis movement generates intensive impact, friction, and shear forces that efficiently reduce particle sizes. Compatible with both dry and wet processing methodologies, the equipment accommodates diverse material types with varying physical characteristics, achieving final particle dimensions as fine as 0.1 micrometers. This operational flexibility has established the system as an essential tool across multiple disciplines including geological research, mineral processing, metallurgical engineering, electronic materials development, advanced ceramics, chemical synthesis, pharmaceutical research, and environmental technology.
Application Spectrum
The omni-directional ball mill demonstrates exceptional adaptability across numerous industrial sectors and research fields. Its capabilities prove particularly valuable in specialized production environments involving electronic ceramics, structural ceramic components, magnetic composites, battery materials (including lithium cobalt oxide and lithium manganese compounds), catalytic systems, phosphorescent materials, rare-earth polishing agents, and functional glass formulations. The technology further supports manufacturing processes for advanced components including zinc oxide varistors, piezoelectric elements, nanoscale materials, multilayer ceramic capacitors (MLCC), thermistor devices (PTC/NTC variants), dielectric ceramics, high-performance alumina and zirconia composites, specialized phosphors, functional oxide powders, and both nickel-zinc and manganese-zinc ferrite materials.
Technical Features
| Drive Mode | Gear drive and belt drive |
| Operation Mode | Two or four grinding tanks working together |
| Maximum Loading Capacity | 2/3 of the capacity of milling tank |
| Feeding Size | Soil material≤10mm, other materials≤3mm |
| Output Granularity | Smallest 0.1 μm |
| Rotational Speed Ratio | 1/2 |
| Max. Continuous Operating Time | 48hours |
| Optional Modes of Speed Control | Frequency conveter and automatic timing control |
| Materials of Jar | Stainless steel, agate, nylon, corundum, zirconia, etc. |
Technical Parameters
| Parameters of Full-Directional Laboratory Ball mill | |||||||
| Type | Power (KW) |
Voltage (V) |
Dimension(mm) | Revolution Speed (rpm) |
Rotation Speed (rpm) |
Total Timing (min) |
Alternating Run Time of Forward & Reversal Rotation (min) |
| QXQM-0.4 | 0.75 | 220V-50Hz | 1100*750*825 | 35-335 | 70-670 | 1-9999 | 1-999 |
| QXQM-1 | 0.75 | 220V-50Hz | 1100*750*825 | 35-335 | 70-670 | 1-9999 | 1-999 |
| QXQM-2 | 0.75 | 220V-50Hz | 1100*750*825 | 35-335 | 70-670 | 1-9999 | 1-999 |
| QXQM-4 | 0.75 | 220V-50Hz | 1100*750*825 | 35-335 | 70-670 | 1-9999 | 1-999 |
| QXQM-6 | 0.75 | 220V-50Hz | 1100*750*825 | 35-335 | 70-670 | 1-9999 | 1-999 |
| QXQM-8 | 1.5 | 220V-50Hz | 1220*900*960 | 35-290 | 70-580 | 1-9999 | 1-999 |
| QXQM-10 | 1.5 | 220V-50Hz | 1290*900*960 | 35-290 | 70-580 | 1-9999 | 1-999 |
| QXQM-12 | 1.5 | 220V-50Hz | 1220*900*960 | 35-290 | 70-580 | 1-9999 | 1-999 |
| QXQM-16 | 3 | 380V-50Hz | 1530*1070*1220 | 30-225 | 60-510 | 1-9999 | 1-999 |
| QXQM-20 | 4 | 380V-50Hz | 1700*1100*1200 | 25-215 | 50-430 | 1-9999 | 1-999 |
| QXQM-40 | 5.5 | 380V-51Hz | 1900*1450*1480 | 20-195 | 40-390 | 1-9999 | 1-999 |
Accessories of Mill Jars & Balls
Available Mill Jars:
304 stainless steel mill jar, 316 stainless steel mill jar, tungsten carbide mill jar, agate mill jar, alumina ceramic mill jar(also called corundum mill jar), zirconia mill jar, nylon mill jar, polyurethane mill jar, mill jar (PTFE), and etc.
| Recommendation For Matching Solutions About Mill Jars & Materials | |
| Categories of Materials | Recommended Mill Jars |
| Soil and other Materials which are not allowed with any impurity | Agate mill jar |
| Metal & nonmetal materials which are not allowed with any impurity | Zirconia mill jar |
| High hardness materials like diamond, tungsten carbide | Tungsten carbide mill jar |
| Strong add & alkali materials or other materials at high temperature | PTFE mill jar |
| Iron ore materials with lower impurity sensitivity | 304 Stainless steel mill jar |
| Pigment or other materials with later process under high temperature | Nylon mill jar |
| Aluminum materials like ceramic glaze | Corundum mill jar |
| Electronic materials like lithium battery | Polyurethane mill jar |
| Easily oxidized materials or some special materials which need to be protected under special atmosphere. |
Vacuum mill jar |
Available Mill Balls:
304 stainless steel mill balls, 316 stainless steel mill balls, tungsten carbide mill balls, agate mill balls, alumina balls, zirconia mill balls, and etc.
| References About Grinding Medias & Materials | ||
| Materials of Grinding Media |
Hardness (Mohs) |
Features |
| Zirconia Balls | ≥9.0 | Super wear-resistance, without any impurity, corrosion & high temperature resistance. |
| Stainless Steel Balls | ≥6.0 | Wear-resistant, general corrsion resistance, high temperature resistance. |
| Agate Balls | ≥7.0 | Super wear-resistance, used for medicine,food and other materials which can not be contaminated with metal, corrosion, and high temperature resistance. |
| Alumina Balls | ≥8.5 | Wear-resistant, corrsion resistance and high temperature resistance. |
| Tungsten Carbide Balls | ≥9.0 | Super wear-resistance, without any impurity, corrosion & high temperature resistance. |
| Matching Solutions for Mill Jars & Balls | |||||
| Items | Agate Balls | Alumina Balls | Stainless Steel Balls | Zirconia Balls | Tungsten Carbide Balls |
| Agate Mill jar | √ | ||||
| Corundum Mill Jar | ▲ | √ | ▲ | ||
| Stainless Steel Mill Jar | √ | ||||
| Zirconia Mill Jar | ▲ | √ | |||
| Nylon Mill Jar | ▲ | √ | |||
| PTFE Mill Jar | √ | ▲ | |||
| Polyurethane Mill Jar | √ | ▲ | |||
| Tungsten Carbide Mill Jar | ▲ | √ | |||
| √ means: most suitable ▲ means: suitable | |||||
TENCAN Planetary ball mills are available in different versions.
Please refer to our website www.lab-mills.com for a complete overview of the different performance features.